Remote switch control



May 27, 1952 w, :05 2,598,356

REMOTE SWITCH CONTROL Filed NOV- 19, 1949 2 SHEETS-SHEET 1 IN V EN TOR. WILLIAM q. coz

ATTORNEY M y 1952 w. e. COE

REMOTE SWITCH CONTROL 2 SHEETS-SHEET 2 Filed Nov. 19, 1949 INVENTOR. w/u/AM q. cos

ATTORNEY Patented May 27, 1952 hmer]; "SWITCHGONTROL' William {i One; East Strouds burg ,Pam;assignon to-McGram-Electricco MilwaukeqW i'saacor-l porationof Delaware ApplicatiomNovember- 19, 1949, Serial No. 128,385 ti fllaginrist (Cl. 177w-353.)

ofacplurality OfiigIOUDSJOf powerdrivenrdevices onlyg-x-wheni the; selected: receivers are. energized? bx carrier currentofj'a predeterminedafrequency and lonly-xwhen a-particular receiver ongroupa :of receivers is; energized: by. the: carrier, current of suchzcfrequency, which :has been codedcorrectly tosthezrequiredz' length and: spacing 15in; a: ipredee terminedmannerztmthereby prcventthe: opera;' tion 'ofeanyrselected group of receivers. on any; sign i even; of: the predetermined; frequency: un-: lessnthas the correct coding; It; frequently-harps. pens; theta inispowem lines; there are :many; high frequency .disturbances due to surges; lightning; togdefectivc equipment,v and t o;many otherqcauses. so; that carrier;- currents; ofym'anys different free; qucnoiesere producedinahaphazard anda-vunpre-r dictabletmanner.

This invention, however;;,as-stated"hereinabove, hastfon its; primary-,objectthe pnQVj-SiQnLOfria recemenwihichajis .so-, constructed that: it responds on y; h nartioular predetermined? carriemfre-zl qufi g mndi:alsopnlx-whenz the-carrier, currentais; interrup ed aticsuitable intenvalsi and; is on sfor suitapleglengiths of time, therebyv providingsai defi; nite 'codcdi- -signal :tog'whicnthe selecteda-reoeimen WHINQSQQQd-z t: th reforeollowsatheta se ondary primary 11E; f; the mLe tiO s; torprov-idemeceivers wh ch ar :soconst otedathat; then-max be ade iust cls s i ha 1 ,1 .3 wi respond in a el ctive mean 0 -3 11 any; roup may b ener ized wi h'o ene izin n others em n an ntozss hor n ts he onatio slotz he-re eiver i-ofs'any; groupsthetlitzw l otm nondistoaextraneousaand und sirab elca icn rr ts whichaarew eneras in haphazend manneryandiwhich: reot i. ,eprecise-manne oei h: herreceivera'is Av-t-furfihee object: o h s; n e tio s: to; pm; is s: ei cr c ec ive s w ich: are isowa rran ed u l ystem hat.;e l-.-o s he eceiver oiany p lm r nutr ntol hei emenos tion atthe v gh lfiha. s sen ou om:.- h ontrol a ry he 'P rticu arsro p 1 h if l'for hand; are so arranged; that all of the receivers ofgth-at. group .will :be .put. in -the 0ff position,

if-inot alreadwso, :wheman-fofi signal is sent frorruthe; controlistation.

Anuembodiment of; the'ainvention isshown in.

the accompanying drawings, in whichr- Figure 1, iso View, 'partly diagrammatic; showingwthe. receiver inyits neutrakorstartposition:

Figure; 2*is aqview of the timer disk removed,

frorn pother portionsl'of the apparatus.

F ure 3risraaperspective view 1of'the=wip er.='

Figure: 4 i is 'a -view; looking;- directly; into; the;

sensitive vrel'aw;

Figure 5 ,is a; sectionalvview; throughsthe. cover of? therelayi with theywiper shown in full lines and: with .all other portions; of" the apparatus.

removed.

'Bheii feceiver is indicatedygenerally; by the referenceE cha-racter 1; and is-c0nncte d?to the mains QIjDQWEIfl-tlil'lQSyZ and-p3 This-vmayube a grounded neutralgrsystem,qthe groundedrneutral beingin-. dicated: by; the reference character- 4; and, may;

comprise the ordinary lightinggsnpplysystem. for domestic purpos s or an ther. systems, ofythis general type. The power, lines ;2 and- 3 are selectively connected toone or moreloads indicated generally. -byythe=reference character 53, The power linespr mains;are 'a1s0, utilized toconduct he .ar ur ent; o. ienna-filter" indicated nc-blo k: dia am; h r e ence character, 6.;

This; signa1 -;filter-is connected' to the groundrasv ndicat di tfl on e i gen to the. terminal. oI therepeiyer; which is, connected to, one of the mains fon example, theymain. 3;- The signal whichds passed by, the s ignal filter-6 is-conducted rectifier 9 'whichsupplies rectified current t0 q -i he n rin i 9 o a cn itive ela-yindiateda e emll y e efe e. haracter M: This relay isprovided with a lightpointeror cpnductingerm l2 which is connectedtothetermine-L8 and; consequently tothe mein 3,; It;- is

lso nr v r i h s a onar ma ne iz d; c nctd nd it sm e n t hatq he i ht con. ducting ,pointer;1 or; switch arm;- I 2 of; the relay carries asmall cylinder or; other shapedmember 14 of megneti materiaLso that-when-the switch arm;. arrives; at the stetionary contact; [3; it :will bgmagnetioallxlight-ly heldtto such-.contact talthongh it is to be; understood thati-z-ther-pointer I 2;;is biasedyin a counterclockwise; direction ias shown: by, the verrowFL-in;accordance with;the 1 usual practice; The pointerg I Z, when oncemoved into engagementuwith theastati'onary "contact I 3Would 1611134115; such;- pojsitioni unless:- mechanically moved norm-this closed cirouito position; The

mechanical means for moving the pointer or conducting arm I2 from the stationary contact I3, consists of a wiper indicated by the reference character I5. This wiper is more clearly shown in Figures 3, 4, and 5, and is provided with an arm I6 rigidly secured thereto which forms the support and also the operating means for the wiper I5. The wiper I has a tongue N that extends into the path of movement of the pointer or arm I2, as shown most clearly in Figure 3, so that when the wiper is moved outwardly, that is to say, to the left as viewed in Figure 3, its finger or tongue I! will wipe or move the pointer I2 away from contact with the magnetized stationary contact I3 and the biased arm I2 will immediately swing to its neutral position against the stop I8, see Figures 1 and 4.

It is to be noted also, particularly from Figure 4, that when the pointer or conducting arm I2 is in its neutral position, that it is out of contact with the wiper I5. The wiper I5 is carried in the insulating cover or housing I9 of the sensitive relay II and inasmuch as this housing or cover I9 is formed of insulating material, it is apparent that the wiper is normally insulated from other portions of the apparatus.

It is to be noted that when the wiper I5 is in the position shown in Figures 1, 3, 4, and 5, that it is out of the path of movement of the arm I2 and the arm I2 can, upon energization, be swung into contact with the stationary contact I3 without engaging the wiper. However, if the wiper I5 were pulled to the left, as viewed in Figures 3, 4, and 5, or downwardly, as viewed in Figure 1, that is to say outwardly from the sensitive relay II, it is apparent that its tongue or finger [1 would be in the path of movement of the arm I2 and consequently if the arm I2 were then energized and swung in a clockwise direction, it would not engage the stationary contact I3, but instead would engage the wiper I5 and thus electrically connect the wiper I5 with the line or main 3, see Figure l.

During this period of contact between the arm I2 and the wiper I5, it is apparent that the wiper I5 would be energized or alive.

Means are provided for periodically oscillating the wiper back and forth and this means will be described hereinbelow. The means for mechanically operating the wiper consists of a pivotally mounted cam follower or conducting arm which is provided with a finger 2| riding on the fiber or other insulating disk 22 of the timer indicated generally by the reference character 23. This timer consists of the fiber disk, as stated hereinabove, which is driven through reduction mechanism, not shown, from a timer driving motor indicated generally at 24. It is intended that the disk 22 be slowly rotated, so that it makes one revolution, for instance, in one minute, though of course other timing could be employed if so desired. The motor 24 is a selfstarting synchronous motor which is ordinarily not energized but which is arranged to be energized whenever a suitable signal arrives at the signal filter 6 as will appear hereinafter.

The timer 23, it is to be noted at this point, controls a power switch operating means indicated generally by the reference character 25 in Figure l, which power switch operating means includes a self-starting synchronous motor 26 which drives through reduction mechanism, not shown, a fiber or other insulating disk 21 and a pair of insulating cam members 28, which latter operate the movable members 29 and 30 of the power switches indicated generally at 3| and 32. These power switches control the connection of the loads 5 to the power lines or mains 2 and 3 as is obvious from an inspection of Figure 1, so that when the motor operates to drive the disk 21 approximately a half revolution, the switches 3| and 32 close and thus connect the loads 5 with the power lines 2 and 3. When the disk 21 is rotated another half revolution the power switches 3| and 32 are again opened and are in the position shown in Figure 1.

It is to be noted that the timer 23 has its fiber disk 22 provided with a plurality of raised portions, the first of which 33 is of relatively longer extent than the remaining portions 34. The successive portions are separated by slots 35 and it is preferable to have a single, relatively long slot or depression 36 just ahead of the enlarged, raised portion or cam member 33. The relative proportion of the cam members 33 and 34 of the fiber disk 22 is more clearly shown in Figure 2. It is to be noted also from a comparison of Figures 1 and 2 that the fiber disk 22 is provided with two sectors indicated by the reference characters 3'! and 38. These sectors are, respectively, the timer sector and the timer group sector. As a matter of fact, in the construction of the device. the sectors 3! and 38 are located on the underside of the fiber disk 22 as shown in dotted lines in Figure 2, such figure being the top or face view of the fiber disk. However, for the sake of clearness the sectors have been shown as if they were located on the top or outer face of the fiber disk 22 in Figure 1. In a similar manner the switch disk sector 39 has been shown as though it were located on the outer face of the fiber disk 21 in Figure 1 for the sake of clearness though, in reality, this sector also, though not shown in the drawing, is located on the under side of the fiber disk 21, similarly to the sectors 31 and 38 of the fiber disk 22 of the timer 23. In each instance, the cooperating brushes are located on the under side of the fiber disks.

It is to be noted that the receiver is provided with four terminals, one of which terminal 8, has already been described. A second terminal 40 is connected to the other power line 2, the terminal 8 being connected to the power line or main 3. The receiver is provided with a pair of output terminals indicated at 4| which are connected to the loads 5. It is, of course to be understood. that one or two loads may be employed. Also it is to be understood that the load could be connected between the output terminals 4|, if so desired, in which case it would have the full voltage between the power lines or mains 2 and 3.

It is to be noted thatthe timer sector 31 is secured by means of a plurality of ears or tongues 42, see Figure 2, which passes through slots 43 in the fiber disk 22 of the timer and that the timer group sector 38 is provided with a plurality of tongues or lugs 44, 44, and 45, which extend respectively, through the corresponding openings 46 for the lugs 44, 44, and through the corresponding opening 41 for the lug 45. In this way, it is possible to adjust the timer group sector 38 which, for simplicity, will hereinafter be called the group sector. The group sector, therefore, can be adjusted to different relative positions around the fiber disk 22 to thereby vary the position at which the contact tongue 48, which is a continuation of the lug 45, will be placed. This positioning of the contact lug 48 determines the particular group in which the receiver will be placed. For example, in the position shown, it is in group one. When it is shifted so that-sthet-lng 45-exteridsthrough successive openings. in the timer disk 22-, see Figure- 2, thesreceiweriwill thus. be adjusted to diiferent groups--as;--wi1l appear hereinafter. 7

It is to be noted-"with reference Y toetheltimen sector-3 1 thatth-issector is provided with a start-a ingg lug 49 and: with a: notch or cutout portion-V 50 seeEigures-landrz Eurthe n .11; 1 v t b noted. that there are sixbrushes associatedwith the timer disk" 22;: The first brush-to bed "describedis -the timer startingc brushit and: the next brush-isthe-timer runningbrush- 52-.- The'thirdsand fourth brushes are-the on and ofi brushes;- respectively, indicated bywthe referencet characters 5,3 and 5k: and the-- pickup brush" 55c The -timer; pick-up hrush 55"- is connectedto-the-timer--motor 24 on one side and: the othen side of the :motonis grounded as.-. indicatedsat 1; Oneiurther brush need-bode scribed connection with the. timer 4 disk 22; This brush is indicated by the reference charac ter: -56i:and is! the brush thatv cnducts-- electric current :to the group sector '3 8in a mannerhereinaf-ter to appear.

It; is believed. that with: the descriptiom thus far given; it will. betcleareriif an-incoming signal isrtraced together with the resulting function Assume .thatthe parts are-in the position shown inFigure l: which corresponds to: the home or neutrahposition. Suppose. a signal of'sth'e. proper frequency;istransmitted. This signal is filtered by-,.-th'e signal filter 65which, in-reality, is .a blockingfilter and blocks. thepower current frompassingsdirectlyuthrough the filter. It,v however;- free- 1y; passes, the signal at the .predetermined-selected frequency;

Assumex that thisisignal; for I instance, exists Qr a;,-period .ofthree seconds. for the purpose of illustration. The signal which is filtered out by the filter-l 6; passes. to the rectifier 9 "which applies direct current-to the-coil lllof the sensitive-relay l,:l; ,and ,moves the arms lZato the left, as viewed lrF gl rie 1,, into engagement with the stationary contact [3 Thearmis. temporarily, magnetical-' ly-helglin1 llhassposition. as previously described cluev to;.the fact; that it iszprovided with amember M of; magnetic material and due to. the further'fact thetthe. Statione s/contact I3 is ma n tiz d-- Underthese conditions: the line. 3' is connected throughthe -normally closed contacts 51: of the loclewutrelay 581to the brushes-i and 56L Current; n mflovv-sjrom" the line 1 through the -brush 5|;to thetimersector-Bl and tothetimenpick -up bli sh; 3J Q from that point to thetimer motor 24 The timer-motor, therefore, drivesthe disk- 22 ;ir; 1;;tl1e direction indicated and before the-111% 4Q passes from the, brush. 5 I, .the running brush 5Z1 WhiQhiS in the s1ot50, passes over-intooontact With-the; nects the timer sector 37 with: the main 3, so that the-timermotor continues to run for one complete revolution of the timer disk 22- independentlvof; any further signal. dislq 2-2:;rotates thefinger- Zlsrides into th'efirstnotch or, the series of. notches 35 and the metallicwiper finger 20 causes the wiper I 5' to wipe thearr-n I2 o f therelay ll freeofzthe:stationarycontact 13 Th arm l2; therefore, immediately swings -,over to its neutral position, as shown in Figure: 1, and interrupts theyconnection-betweenthe stationary contact andsuch arm. The timer; however, completes one full: cycle-by causing the,

timerdis'k ,to complete a -full revolution once-it hasstarted, It no;spurious signal isxpresent, the:

imer sector ,37; and? thus directly con- As the timer disk and since such arm l-2- remains-in theposition showniin-Figurei 1-; However; an unwanted or: spurious-signal isbeing-transmitted over the -mains, thearm: I121 swings to the-- left but cannot arrive at the eta-i tionary -contact 3-'.-' Under condition, the arm' l2 'contacts. the -metallic-wiper- I Stand elec-ix trically: connectsisuch wiper with the mai-n 3: The: wiper',-- in turn, electrically connects-the metallic wiper arm 1 2 0 with the main- 3 .1and1-thus: the-arm- 2lla= is electrically alive Inasmuch as the arm ZH is in:-its:down-mostposition, as viewed in Fig ure 1; I itis apparent that themonitoringswitch indicated at 59 :will L be closed; such monitoring switchbeing composed of a -movable=arm-carried by= the: arm and the stationary contactas shown in- Figural; The. monitoringswi-tch is con nected through the: actuatingcoil: fifi of thelo'clc outhrelay: 5'8 and; causes the-relay to: openthenormally closed-contactslflz and to close the nor mally open contacts 61?, thus: establishing aholde circuit for: this i lockout relay as the circuit extends toe the now electrified l brush 55 of the timer=23-.' Understhese conditions; the brushes 51-- and :56 aredeada'a-nd': :the;v group sec-tor 3.8 isalso dead,,andno current :can passto: the switch openating motor 2& whenrthe: lug miarr-ives at the 0I1'-?b1?ll$h.l53i I On thelother hand, i-f no spurious signalshad been received, th monitoringswitch though. closed; would; "carry: nocurrentsince-"the arm vI 2 :of thesensitive relay I I would remainitss neutralzposition :as :shown in Figure 1- and consequently; v the locksout relay 58 would P not operate;

Assume that; no spurious "signal had 1 been 1%? ceived. When the nextssignalis-sent outywhich" for the sake of illustration, may consist=of a twosecond: signal ofcthe selected frequency separated from-theprevious threeesecond signal by a twosecon-d ,;g,ap, it: is papparent that I the wiper arm won-ld;;then:.have arrived at the 'nextprojection: 3410f the, timer disk :andthe arm lzof' the sensi tive relay. could now iswingfreely into con-tact with the stationary contact I3; Thiswould cone nectthe.supplyv brush :58 with the. main 3 and I current; would then iiowmto. the group sector- 3&-

andwhen-the lug 4.8:: came in :contact withstheon; brush 53' of r the load switch: motor 26,: such: motor would start-sincethe .on brush- 53mm connected; to the on brush: flint-the load switch: on? brush: is :at this time: in. contact with the lug 63-o,f :the;switch disk sec-tor: 39. Current now flows,-.,,f,rom ytheswitch-disk sector .39\ through th load; motor, pickup; brush: 6 4 through the switch motor-2$=to the-ground?! andthe motor starts tov operate; As soon aszpthe" motorkd fivestheidisk 21 a sligh distance; therloadmotor Iunbrush B5 passesfrom the notch 66 ,ande contacts the sector 39, thus establishing a e: rec t, circuit from the-loadmotor to the maini The loaa motor continues to run until thelbr u sh esri s theswitch, disk sector 39 into the notch 6 It s'willpbe seen thatthedisk 27 has executed ahalf revolution and consequently the. double; cam- 28 has also executed a half revolutionand. the power switches 3| and,32. are closed. The timer motor continues tooperate until itexecutes: a =fu=l-lrevolution at which time iitjstops as the brush 52- again arrives at the notch or cut-out S6,: and the timer sector 31 is now dead asj'thebii tact arm l2-has beehwiped clear of thes tation-vl ary-contact-l 3 as the finger ll of the wiper arm, 20 hasdropped into a succeeding notch or notches 35* during theorevolution, of; the sine disk 22';

Theiloadvremain's arr-until an off signal is sent. This "ofi" signal continues for a period of three seconds which starts the timer motor as previously described. The timer motor continues to rotate and the arm I2 of the relay H is wiped clear of the stationary contact l3. At the appropriate time when the lug 48 of the timer disk 22 contacts the ofi brush 54 of the timer disk. a second signal of two seconds duration is transmitted and at this time the finger 2| is riding on the corresponding elevation 34 of the timer disk 22. The arm I2 of the relay H responding to the two-second signal swings over into contact with the stationary contact 13 and thus connects the group sector 38 with the main 3 and thereby energizes the load switch motor 26, for at this time the lug 63 of the load switch motor is in contact with the "oil brush 68 of the load switch motor. The load switch motor executes a half revolution as previously described and thereby opens the load switches 3| and 32.

It will be apparent from the description hereinabove given that when an on signal is given, all of the receivers of the selected group will be operated, so that their power switches are in the on position, whether they are in the on" position or whether they were initially in the off position. Similarly, it is apparent that when an "oif signal is given, that all of the receivers of that particular group which were selected for this ofi signal, will be placed in the oil position for their power switches, whether they were initially in the off position or in the on position. Thus, it is clear from the above, that each group will be correctly positioned for the first coded signal that is sent out, whether it be an "ofl signal or an on signal.

- It will be seen that the receiver is so constructed that it will respond to coded signals only, although spurious uncoded signals may be impressed on the power lines of the predetermined frequency. Unless these signals, even though they be of the same frequency are properly coded. the receiver will not respond.

It is also apparent that properly coded signals can be sent out of the power line and will selectively control the particular group of receivers which are set for that particular signal. In the form shown, by proper adjustment of the group sector 38 in the appropriate slot 41, with corresponding changes of the lugs 44, a receiver is placed in the desired group.

For example, a receiver in the second group will receive the two-second signal at a later period from that of the receiver in the first group, although both receivers will receive the threesecond start signal. A similar explanation applies to each of the receivers in the succeeding groups.

It is also to be understood that transients, such as those produced by lightning, surges, or other causes will not cause undesirable operation of the receiver as the monitoring switch and lockout relay will prevent operation of the 'load switch motor under all spurious signal conditions.

It will be seen further that the receiver, though having the characteristics hereinabove enumer ated, is nevertheless relatively simple and has been found reliable in operation.

Although this invention has been described in considerable detail, it is to be understood that such description is intended as illustrative rather than limiting, as the invention may be variously embodied and is to be interpreted as claimed.

I claim:

1. A receiver for a remote control system for connecting an electric power line to a load, said receiver comprising a signal filter arranged to pass a signal having a carrier current of a predetermined frequency transmitted over said power line, a sensitive relay actuated by energy passed through said filter and including a contact and a movable member arranged to be moved by energy passed by said filter and arranged to connect said contact to said power line, a timer including a self-starting synchronous motor normally connected to said contact, a load switch motor for operating a load switch, said timer having means for controlling said load switch motor effective only after said contact has been connected to the power line a plurality of times with a given time spacing, and means forming a portion of said timer for causing the continuous operation of said timer for one complete cycle after the initial connecting of said contact to said power line.

2. A receiver for a remote control system for connecting an electric power line to a load, said receiver comprising a signal filter arranged to pass a signal having a carrier current of a predetermined frequency transmitted over said power line, a sensitive relay actuated by energy passed through said filter and including a contact and a movable member arranged to be moved by energy passed by said filter and arranged to connect said contact to said power line, a timer including a self-starting synchronous motor normally connected to said contact, the movable member of said sensitive relay after operating being magnetically held in a position to maintain said contact connected to said power line and being biased towards an initial position, and wiper means driven from said timer for moving said movable member towards its initial position and interrupting the connection of said contact to said power line, a load switch motor for operating a load switch, said timer having means for controlling said load switch motor eifective only after said contact has been connected to the power line a plurality of times with a given time spacing, and means forming a portion of said timer for causing the continuous operation of said timer for one complete cycle after the initial connecting of said contact to said power line.

3. A receiver for a remote control system for connecting an electric power line to a load, said receiver comprising a signal filter arranged to pass a signal having a carrier current of a predetermined frequency transmitted over said power line, a sensitive relay actuated by energy passed through said filter and including a first and a second contact and movable means arranged to be moved by energy passed by said filter, said movable means being arranged to selectively engage said first or said second contact and being connected to said power line, a timer including a self-starting synchronous motor normally connected to said first contact, said movable means and said first contact being arranged to be held in contact with each other temporarily and said movable means being biased towards its initial position, a wiper for wiping said means from said first contact and having a portion constituting said second contact, a load switch motor for operating a load switch, said timer having means for connecting said load switch motor to said power line, effective only after said first contact has been engaged by said movable means a plurality of times with a given time spacing, conducting means forming a portion of said timer for causing the continuous operation of said timer for one complete cycle after the initial engagement of said first contact by said movable means, and a lock-out relay for preventing actuation of said load switch motor when said movable means engages said second contact while a signal is being transmitted along said power line.

4. A receiver for a remote control system for connecting an electric power line to a load, said receiver comprising a signal filter arranged to pass a signal having a carrier current of a predetermined frequency transmitted over said power line, a sensitive relay actuated by energy passed through said filter and including a first and a second contact and movable means arranged to be moved by energy passed by said filter, said movable means being arranged to selectively engage said first or said second contact and being connected to said power line, a timer including a self-starting synchronous motor normally connected to said first contact, said movable means and said first contact being arranged to be held in contact with each other temporarily and said movable means being biased towards its initial position, a wiper for wiping said means from said first contact and having a portion constituting said second contact, a load switch motor for operating a load switch, said timer having means for connecting said load switch motor to said power line, effective only after said first contact has been engaged by said movable means a plurality of times with a given time spacing, conducting means forming a portion of said timer for causing the continuous operation of said time for one complete cycle after the initial engagement of said first contact by said movable means, and a lock-out relay for preventing actuation of said load switch motor when said movable means engages said second contact while a signal is being transmitted along said power line, said wiper being movable into a position to block said movable means from engagement with said first contact.

5. A receiver for a remote control system for connecting an electric power line to a load, said receiver comprising a signal filter arranged to pass a signal having a carrier current of a predetermined frequency transmitted over said power line, a sensitive relay actuated by energy passed through said filter and including a first and a second contact and movable means arranged to be moved by energy passed by said filter, said movable means being arranged to selectively engage said first or said second contact and being connected to said power line, a timer including a self-starting synchronous motor normally connected to said first contact, said movable means and said first contact being arranged to be held in contact with each other temporarily and said movable means being biased towards its initial position, a wiper for wiping said means from said first contact and having a portion constituting said second contact, a load switch motor for opcrating a load switch, said timer having means for connecting said load switch motor to said power line efiective only after said first contact has been engaged by said movable means a plurality of times with a given time spacing, conducting means forming a portion of said timer for causing the continuous operation of said timerfor one complete cycle after the initial engagement of said first contact by said movable means, and a lock-out relay for interrupting the connection between said power line and said load switch motor when said movable means engages said second contact while a signal is being transmitted along said power line.

6. A receiver for a remote control system for connecting an electric power line to a load, said receiver comprising a signal filter arranged to pass a signal having a carrier current of a predetermined frequency transmitted over said power line, a sensitive relay actuated by energy passing through said filter and including a first contact and a movable member connected to the power line and arranged to be moved by energy passed by said filter and having a movable sec ond contact normally out of the path of movement of said movable member, a timer including a self-starting synchronous motor normally connected to said first contact, a load switch motor for operating a load switch, said timer including a cam driven by said synchronous motor and operating said movable second contact to move said second contact into and out of the path of said movable member of said sensitive relay, said timer having motor control means carried by said cam and adjustable with reference to said cam for controlling said load switch motor and effective to cause operation of said load switch motor only after said movable member has engaged said first contact a plurality of times with a given time spacing depending on the setting of said motor control means with reference to said cam, said timer including means connected to the movable second contact of said sensitive relay for preventing the actuation of said load switch motor when a spurious signal is received during the said time spacing, and means forming a portion of said timer for causing the continuous operation of said timer for one complete cycle after the initial connecting of said first contact to said power line.

WILLIAM G. COE.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 1,665,622 Chauveau Apr. 10, 1928 1,888,904 Brauer Nov. 22, 1932 2,203,358 Koenig June 4, 1940 2,263,389 Koenig Nov. 18, 1941 2,568,836 Tobler Sept. 25, 1951 

